Browse complete Inorganic and Composite Printed Electronics 2010-2020 Report
Browse all ID Techex Market Research Reports
This unique report assesses the huge opportunities for fine chemicals, printing, production equipment and electronics companies in the largest part of the emerging $300 billion printed electronics business - inorganic materials and composites. Semiconductors, dielectrics, conductors, light emitters etc for displays, photovoltaics, transistors and much more are covered. Company profiles and ten year forecasts are given.
EXECUTIVE SUMMARY AND CONCLUSIONS
1. INTRODUCTION
1.1. Printed electronics - reasons why
1.2. Impact of printed electronics on conventional electronics
1.3. Progress so far
1.3.1. The age of silicon
1.3.2. The dream of organic electronics
1.3.3. The example of smart clothing
1.3.4. Slow progress with organic conductors
1.3.5. Boron nitride - tailoring carbon composites
1.4. The new inorganic printed and thin film devices
1.4.1. Rapidly widening choice of elements - déjà vu
1.4.2. Example - printed lighting
1.4.3. Example - printed photodetectors
2. INORGANIC TRANSISTORS
2.1. Inorganic compound semiconductors for transistors
2.1.1. Learning how to print inorganic compound transistors
2.1.2. Zinc oxide based transistor semiconductors and Samsung breakthrough
2.1.3. More work on inorganic transistors: Progress at Evonik
2.1.4. Amorphous InGaZnO
2.1.5. Gallium-indium hydroxide nanoclusters
2.1.6. Gallium arsenide semiconductors for transistors
2.1.7. Transfer printing silicon and gallium arsenide on film
2.1.8. Silicon nanoparticle ink
2.2. Inorganic dielectrics for transistors
2.2.1. Solution processed barium titanate nanocomposite
2.2.2. Alternative inorganic dielectrics HafSOx etc
2.2.3. Hybrid inorganic dielectrics - zirconia
2.2.4. Hafnium oxide - latest work
2.2.5. Aluminium, lanthanum and other oxides
2.3. Hewlett Packard prints aSi backplanes reel to reel
2.4. Inorganic transistors on paper
2.5. Progress Towards p-type Metal Oxide Semiconductors
2.6. High-Mobility Ambipolar Organic-Inorganic Hybrid Transistors
2.7. Hybrid inorganic/organic transistors and memory
2.7.1. Resistive switching
2.7.2. Oxides as anodes
2.8. Do organic transistors have a future?
3. INORGANIC PHOTOVOLTAICS AND THERMOELECTRIC
3.1. Performance criteria and limitations of silicon photovoltaics
3.2. Comparison of photovoltaic technologies
3.3. Non-silicon inorganic options
3.3.1. Lowest cost solar cells - CuSnZnSSe?
3.3.2. Copper Indium Gallium diSelenide (CIGS)
3.3.3. Gallium arsenide
3.3.4. Gallium arsenide - germanium
3.3.5. Gallium indium phosphide and gallium indium arsenide
3.3.6. Cadmium telluride and cadmium selenide
3.3.7. Bismuth ferrite - new principle of operation
3.3.8. Porous zinc oxide
3.3.9. Polymer-quantum dot devices CdSe, CdSe/ZnS, PbS, PbSe
3.3.10. Cuprous oxide PV
3.3.11. Other inorganic semiconductors for PV
3.4. Inorganic-organic and carbon-organic formulations
3.4.1. Titanium dioxide Dye Sensitised Solar Cells (DSSC)
3.4.2. Zinc oxide DSCC photovoltaics
3.4.3. Development of high-performance organic-dye sensitized solar cells
3.4.4. Fullerene enhanced polymers
3.5. Other recent advances
3.6. Cobalt, phosphate and ITO to store the energy
3.7. Major US funding for thin Si, CIGS/ZnMnO, DSSC photovoltaics
4. BATTERIES AND SUPERCAPACITORS
4.1. Applications of laminar batteries
4.2. Technology and developers
4.2.1. Battery overview
4.2.2. The Paper Battery Co
4.2.3. Nanotecture
4.2.4. CEA Liten
4.2.5. Rocket Electric, Bexel, Samsung, LG Chemicals and micro SKC batteries for Ubiquitous Sensor Networks
4.2.6. Power Paper
4.2.7. Solicore, USA
4.2.8. SCI, USA
4.2.9. Infinite Power Solutions, USA
4.2.10. Blue Spark Technologies USA
4.2.11. Enfucell
4.2.12. Printed battery research
4.3. Smart skin patches
4.4. Nano metal oxides with carbon create new supercapacitor
5. CONDUCTORS, SENSORS, METAMATERIALS AND MEMRISTORS
5.1. Silver, indium tin oxide and general comparisons.
5.2. Conductor deposition technologies
5.3. 2009 breakthroughs in printing copper
5.3.1. Challenges with copper
5.3.2. University of Helsinki
5.3.3. NanoDynamics
5.3.4. Applied Nanotech Holdings
5.3.5. Samsung Electro-Mechanics
5.3.6. NovaCentrix
5.3.7. Hitachi Chemical
5.4. Conductive Inks
5.5. Progress with new conductive ink chemistries and cure processes
5.5.1. Novacentrix PulseForge
5.6. Printed conductors for RFID tag antennas
5.6.1. Print resolutions required for high performance RFID tag antennas
5.6.2. Process cost comparison
5.6.3. RFID tag manufacture consolidation and leaders in 2009
5.7. Printing wide area sensors and their memory: Polyscene, Polyapply, 3Plast, PriMeBits, Motorola
5.8. Phase Change Memory
5.9. Printing metamaterials
5.10. Flexible memristors
5.11. Company profiles
5.11.1. ASK
5.11.2. Poly-Flex
5.11.3. Avery Dennison
5.11.4. Sun Chemical (Coates Circuit Products)
5.11.5. Mark Andy
5.11.6. InTune (formerly UPM Raflatac)
5.11.7. Stork Prints
5.12. Aerosol jet printing by Optomec
5.13. Electroless plating and electroplating technologies
5.13.1. Conductive Inkjet Technology
5.13.1. Hanita Coatings
5.13.2. Omron
5.13.3. Meco
5.13.4. Additive Process Technologies Ltd
5.13.5. Ertek
5.13.6. Leonhard Kurz
5.14. Polymer - metal suspensions
5.15. Comparison of options
5.16. Dry Phase Patterning (DPP)
5.17. Inorganic biomedical sensors
5.17.1. Disposable blocked artery sensors
5.17.2. Disposable asthma analysis
6. NANOTUBES AND NANOWIRES
6.1. Nanotubes
6.2. At Stanford, nanotubes + ink + paper = instant battery
6.3. Carbon Nanotubes and printed electronics
6.4. Developers of Carbon Nanotubes for Printed Electronics
6.5. Nanorods in photovoltaics
6.6. Zinc oxide nanorod semiconductors
6.7. Zinc oxide nano-lasers
6.8. Indium oxide nanowires
6.9. Zinc oxide nanorod piezo power
7. INORGANIC AND HYBRID DISPLAYS AND LIGHTING
7.1. AC Electroluminescent
7.1.1. Electroluminescent and other printed displays
7.1.2. CASE STUDIES: Electroluminescent applications
7.1.3. Rapid Improvements in AC Electroluminescent Displays
7.2. Thermochromic
7.2.1. Heat generation and sensitivity
7.2.2. CASE STUDY: Duracell battery testers
7.3. Electrophoretic
7.3.1. Background
7.3.2. Applications of E-paper displays
7.3.3. Electrochromic E-Paper using ZnO Nanowire Array
7.3.4. The Killer Application
7.4. Colour electrophoretics
7.5. Inorganic LED lighting and hybrid OLED
7.6. Affordable electronic window shutters
7.7. Quantum dot lighting and displays
8. COMPANY PROFILES
8.1. Hewlett Packard
8.2. Unidym
8.3. NanoMas Technologies
8.4. Miasolé
8.5. Konarka
8.6. Spectrolab
8.7. G24i
8.8. Soligie
8.9. BASF
8.10. DaiNippon Printing
8.11. Evonik
8.12. InkTec
8.13. Samsung
8.14. Toppan Printing
8.15. Nanogram
9. TIMELINES, SIZING OF OPPORTUNITIES AND MARKET FORECASTS
9.1. Market forecasts 2010-2020
9.2. Materials
9.3. Devices
9.3.1. Photovoltaics
9.3.2. Batteries, displays, etc
9.3.3. Market for printed electronic labels
APPENDIX 1: IDTECHEX PUBLICATIONS AND CONSULTANCY
About Us
ReportsandReports comprises an online library of 10,000 reports, in-depth market research studies of over 5000 micro markets, and 25 industry specific websites. Our client list boasts almost all well-known publishers of such reports across the globe. We as a third-party reseller of market research reports employ a number of marketing tools, such as press releases, email-marketing and effective search-engine optimization techniques to drive revenues for our clients. We also provide 24/7 online and offline support service to our customers.
Contact:
Ms. Sunita
7557 Rambler road,
Suite 727, Dallas, TX 75231
Tel: +1-888-989-8004
